Absolute position sensing system for stepper motor mechanism

What is claimed is: 1. A luminaire comprising: a luminaire mechanism; a stepper motor having a motor shaft mechanically coupled to the luminaire mechanism and configured to move the luminaire mechanism from a first position to a second position; an absolute multi-turn rotational position sensing system for sensing an absolute multi-turn position of the motor shaft, the absolute multi-turn rotational position sensing system comprising: a first absolute rotational sensor configured to detect an absolute rotational position of a cam indexer directly coupled to the motor shaft, the cam indexer comprising a first gear with a single tooth; and a second absolute rotational sensor configured to detect an absolute rotational position of an indexer wheel mechanically coupled to the cam indexer, the cam indexer comprising a second gear with a plurality of teeth, the single tooth of the cam indexer being configured to contact the teeth of the indexer wheel to rotate the indexer wheel by a predetermined amount in response to one full rotation of the cam indexer; and a control system electrically coupled to a data link, the stepper motor, the first absolute rotational sensor, and the second absolute rotational sensor, the control system configured to: receive a first signal from the first absolute rotational sensor, the first signal comprising first information relating to the absolute rotational position of the cam indexer; receive a second signal from the second absolute rotational sensor, the second signal comprising second information relating to the absolute rotational position of the indexer wheel; determine an absolute position of the luminaire mechanism based on the first information and the second information; receive a luminaire mechanism command via the data link, the luminaire mechanism command specifying a commanded position for the luminaire mechanism; and cause the stepper motor to rotate to move the luminaire mechanism to the commanded position based on the absolute position of the luminaire mechanism. 2. The luminaire of claim 1 , wherein: the first absolute rotational sensor is configured to detect an initial, static absolute rotational position of the cam indexer at power up of the luminaire; and the second absolute rotational sensor is configured to detect an initial, static absolute rotational position of the indexer wheel at power up of the luminaire. 3. The luminaire of claim 1 , wherein the control system is further configured to: cause the stepper motor to rotate to move the luminaire mechanism to a microstep position between two adjacent full steps of the stepper motor, the microstep position based on the commanded position. 4. The luminaire of claim 3 , wherein the control system is further configured to: read microstep information from a memory, the microstep information relating to a current microstep position of the stepper motor; and determine the absolute position of the luminaire mechanism based on the first information and the second information and further on the microstep information. 5. The luminaire of claim 1 , wherein: the cam indexer comprises a first magnet and the first absolute rotational sensor comprises a first magnetic rotary position sensor configured to detect an absolute rotational position of the first magnet; and the indexer wheel comprises a second magnet and the second absolute rotational sensor comprises a second magnetic rotary position sensor configured to detect an absolute rotational position of the second magnet. 6. The luminaire of claim 1 , wherein: the luminaire mechanism has a first end of travel and a second end of travel; the mechanical coupling of the motor shaft to the luminaire mechanism is configured to cause the motor shaft to complete n full rotations to move the luminaire mechanism from the first end of travel to the second end of travel; and the plurality of teeth comprises at least n+1 teeth. 7. The luminaire of claim 1 , wherein the mechanical coupling of the luminaire mechanism to the motor shaft comprises a belt drive. 8. The luminaire of claim 1 , wherein the luminaire mechanism comprises one of a pan mechanism, a tilt mechanism, and a lens movement system. 9. A method of controlling a position of a luminaire mechanism of a luminaire, the method comprising: detecting an absolute rotational position of a cam indexer directly coupled to a motor shaft of a stepper motor, the motor shaft mechanically coupled to a luminaire mechanism and configured to move the luminaire mechanism from a first position to a second position; detecting an absolute rotational position of an indexer wheel mechanically coupled to the cam indexer, the cam indexer configured to contact teeth of the indexer wheel with a single tooth of the cam indexer to rotate the indexer wheel by a predetermined amount in response to one full rotation of the cam indexer; determining an absolute position of the luminaire mechanism based on the absolute rotational position of the cam indexer and the absolute rotational position of the indexer wheel; receiving a luminaire mechanism command via a data link, the luminaire mechanism command specifying a commanded position for the luminaire mechanism; and causing the stepper motor to rotate to move the luminaire mechanism to the commanded position based on the absolute position of the luminaire mechanism. 10. The method of claim 9 , wherein: detecting an absolute rotational position of the cam indexer comprises detecting an initial, static absolute rotational position of the cam indexer at power up of the luminaire; and detecting an absolute rotational position of the indexer wheel comprises detecting an initial, static absolute rotational position of the indexer wheel at power up of the luminaire. 11. The method of claim 10 , wherein: the cam indexer comprises a first magnet and detecting an absolute rotational position of the cam indexer comprises receiving a first signal from a first magnetic rotary position sensor configured to detect an absolute rotational position of the first magnet; and the indexer wheel comprises a second magnet and detecting an absolute rotational position of the indexer wheel comprises receiving a second signal from a second magnetic rotary position sensor configured to detect an absolute rotational position of the second magnet. 12. The method of claim 10 , wherein the luminaire mechanism comprises one of a pan mechanism, a tilt mechanism, and a lens movement system. 13. The method of claim 9 , further comprising: causing the stepper motor to rotate to move the luminaire mechanism to a microstep position between two adjacent full steps of the stepper motor, the microstep position based on the commanded position. 14. The method of claim 13 , further comprising: reading microstep information from a memory, the microstep information relating to a current microstep position of the stepper motor; and determining the absolute position of the luminaire mechanism based on the absolute rotational position of the cam indexer and the absolute rotational position of the indexer wheel and further on the microstep information. 15. An absolute multi-turn rotational position sensing system for sensing an absolute position of a motor shaft of a stepper motor and a number of full rotations of the motor shaft, the absolute multi-turn rotational position sensing system comprising: a first absolute rotational sensor configured to detect an absolute rotational position of a cam indexer directly coupled to the motor shaft; and a second absolute rotational sensor configured to detect an absolute rotat